CN208186520U - Air conditioner indoor unit - Google Patents

Abstract

The utility model provides a kind of air conditioner indoor unit, including shell, outer wind deflector and internal air baffle, the lower front of shell defines the air outlet extended in transverse direction, internal air baffle is located at the inside of outer wind deflector, including at least two inner plate sections being sequentially distributed in a lateral direction, each inner plate section be can be rotatably set；Outer wind deflector includes outer plate body and at least one first outer pivoted arm, one end of at least one the first outer pivoted arm is connected to the medial surface position corresponding with internal air baffle of outer plate body, the rotation axis connection of the other end and outer wind deflector, to drive outer plate body rotation by least one first outer pivoted arm；Adjacent two inner plate section intervals setting, and the clearance space of each two adjacent inner plate sections is corresponding with a first outer pivoted arm, avoiding space is provided with the rotation for the first outer pivoted arm, thus avoids the interference of the external wind deflector of internal air baffle, ensure that the smooth of outer wind deflector rotation.

Description

Air conditioner indoor unit

Technical field

The utility model relates to family's electro-technical fields, more particularly to air conditioner indoor unit.

Background technique

To adjust air-out direction, preferably blows, big wind deflector and small is usually provided at the air outlet of air conditioner indoor unit Wind deflector, big wind deflector are generally rotatablely arranged at air outlet, can close or open air outlet, and small wind deflector is normally at The inside of big wind deflector, cooperates with big wind deflector and carries out wind-guiding.

The big wind deflector length of air-conditioning is very long, very high for the straightness requirement of big wind deflector, otherwise can be with indoor unit Shell generates fit clearance or interference.Generally, it is covered with metal plate on the inside of big wind deflector, to correct the straight line of big wind deflector Degree, however, bringing material cost in this way and spraying the increase of cost.

Summary of the invention

In view of the above problems, a purpose of the utility model is to provide for one kind and overcomes the above problem or at least partly The air conditioner indoor unit that ground solves the above problems.

The utility model one is further objective is that guaranteeing the straightness of outer wind deflector and guaranteeing outer wind deflector rotation Smoothness.

The utility model provides a kind of air conditioner indoor unit, comprising:

Shell, lower front define the air outlet extended in transverse direction；

Outer wind deflector, is rotatably set on shell, is configured to open or close air outlet, and the rotation axis of outer wind deflector Line closes on the lower edge of air outlet；

Internal air baffle, positioned at the inside of outer wind deflector, including at least two inner plate sections being sequentially distributed in a lateral direction, Each inner plate section can be rotatably set, and the pivot center of inner plate section closes on the upper edge of air outlet；

Outer wind deflector includes outer plate body and at least one first outer pivoted arm, and one end of at least one the first outer pivoted arm is connected to The medial surface of outer plate body position corresponding with internal air baffle, the rotation axis connection of the other end and outer wind deflector, to pass through at least one A first outer pivoted arm drives outer plate body rotation；

Adjacent two inner plate section intervals setting, and outside the clearance space of each two adjacent inner plate sections and one first Pivoted arm is corresponding, provides avoiding space with the rotation for the first outer pivoted arm.

Optionally, outer wind deflector further includes two the second outer pivoted arms, and the first end of two the second outer pivoted arms is connected to The medial surface of outer plate body closes on the position of two ends in outer plate body transverse direction, the second end difference of two the second outer pivoted arms With the rotation axis connection of outer wind deflector；

At least one first outer pivoted arm is located between two the second outer pivoted arms；

The length of internal air baffle transverse direction is less than the length of the transverse direction of outer plate body, so that internal air baffle and outlet air Two ends in mouth transverse direction form clearance space, provide avoiding space with the rotation for two the second outer pivoted arms.

Optionally, the first outer pivoted arm is one；

Internal air baffle includes two inner plate sections.

Optionally, when outer wind deflector turns to closing air outlet, the top edge of outer plate body is denoted as the first edge of outer plate body, The lower edge of outer plate body is denoted as the second edge of outer wind deflector；

What the interior direction that the position that the medial surface of outer plate body closes on second edge is formed with outside plate body was protruded is used to hinder The barrier rib of trapping stream.

Optionally, air conditioner indoor unit further include:

Air duct is set to enclosure interior, is connected to air outlet, for the air inside air conditioner indoor unit to be oriented to outlet air Mouthful；

Inner plate section is configured to the outside that forward upward can turn to air duct.

Optionally, each inner plate section includes inner plate body and at least one cock arm；

The first end of at least one cock arm is connected on inner plate body, the second end of at least one cock arm and inner plate section Axis connection is rotated, to drive inner plate body rotation by least one cock arm.

Optionally, the shortest distance of the pivot center and inner plate body of inner plate section is greater than the pivot center and air outlet of inner plate section The distance of upper edge, to guarantee under heating mode, each inner plate body can forward upward turn to the outside in air duct.

Optionally, the shortest distance of the pivot center and inner plate body of inner plate section is less than the pivot center and air outlet of inner plate section The distance of lower edge, to guarantee under refrigeration mode, each inner plate body can rotate in air duct.

Optionally, in cooling mode, outer wind deflector is configured to forward upward and turns to the third place, and each inner plate section is equal It is configured to rotate back to the 4th position, to export cold wind to the front of air outlet, front lower place, front upper place or lower section；

Air duct is configured to be limited by upper air duct wall and lower air duct wall；

The each inner plate body for turning to the 4th position is formed with interval towards between the one side and lower air duct wall of lower air duct wall Space, to guarantee under refrigeration mode, cold wind blowout is arranged at the lower part and top of each inner plate body, solidifying to avoid being formed on inner plate body Dew.

Optionally, each inner plate section includes two cock arms；

Two cock arms that each inner plate section includes are connected to two in the inner plate body transverse direction of the inner plate section End.

The air conditioner indoor unit of the utility model, internal air baffle includes at least two inner plate sections, between two adjacent inner plate sections Every setting, and the clearance space of each two adjacent inner plate sections is corresponding with a first outer pivoted arm, avoids internal air baffle pair The interference of outer wind deflector ensure that the smooth of outer wind deflector rotation.

Further, in the air conditioner indoor unit of the utility model, outer wind deflector is including two the second outer pivoted arms and positioned at two At least one first outer pivoted arm between a second outer pivoted arm, improves the straightness of outer wind deflector, eliminates metal rectification plate Use, saved material and spray painting expense.

Further, in the air conditioner indoor unit of the utility model, inner plate section can forward upward turn to the outside in air duct, The rotation amplitude of internal air baffle is increased, the wind-guiding effect of internal air baffle is improved, passes through matching for internal air baffle and outer wind deflector Closing, which can be achieved to blow or put down on cold wind, blows, and reaches cold wind and does not blow people, while can be realized and blow under hot wind, reduces the temperature point in room Layer, obtains better user experience.

According to the accompanying drawings to the detailed description of the utility model specific embodiment, those skilled in the art will be more Add the above-mentioned and other purposes, advantages and features of clear the utility model.

Detailed description of the invention

Some specific realities of the utility model are described in detail by way of example and not limitation with reference to the accompanying drawings hereinafter Apply example.Identical appended drawing reference denotes same or similar part or part in attached drawing.It should be appreciated by those skilled in the art that The drawings are not necessarily drawn to scale.In attached drawing:

Fig. 1 is the schematic diagram according to the air conditioner indoor unit of the utility model one embodiment；

Fig. 2 is the schematic diagram according to the internal air baffle of the air conditioner indoor unit of the utility model one embodiment；

Fig. 3 is the schematic diagram according to the other direction of the air conditioner indoor unit of the utility model one embodiment；With And

Fig. 4 is the cross-sectional view according to the air conditioner indoor unit of the utility model one embodiment.

Specific embodiment

The air conditioner indoor unit of the utility model embodiment is described referring to Fig. 1 to Fig. 4.Wherein, "front", "rear", The orientation or positional relationship of the instructions such as "upper", "lower", "top", "bottom", "inner", "outside", " transverse direction " is side based on the figure Position or positional relationship, are merely for convenience of describing the present invention and simplifying the description, rather than the device of indication or suggestion meaning Or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to the utility model Limitation.

As shown in Figure 1, and referring to Fig. 3, the air conditioner indoor unit 100 of the present embodiment can be wall-hanging air conditioner indoor unit 100. Indoor unit 100 generally may include shell 110, evaporator 120, blower 130, air duct 140, outer wind deflector 150 and interior wind-guiding Plate 160.Air conditioner indoor unit 100 and air-conditioner outdoor unit (not shown) together constitute with compression cooling cycle system, realize to indoor ring The refrigerating/heating in border.

The top of shell 110 is formed with air inlet 111a, and air-inlet grille 111, shell 110 can be disposed at air inlet 111a Lower front define the air outlet extended in transverse direction.Shell 110 can be the strip structure being laterally extended.

Evaporator 120 is used to carry out heat exchange with the air entered from air inlet 111a in shell 110, forms heat exchange wind (specifically, being cold wind when refrigeration, be hot wind when heating).Evaporator 120 is preferably front and the upper space for covering blower 130 Three-stage evaporator fin.

Blower 130 is preferably the cross flow fan 130 that axis direction extends in transverse direction, for promoting air from air inlet 111a is flow at evaporator 120, and the heat exchange air formed after exchanging heat with evaporator 120 is flow at air outlet, then blows to room It is interior.

Shell 110 is internally provided with air duct 140, and air duct 140 is for heat exchange wind to be drained to out from evaporator 120 At air port, so that heat exchange wind is blown out from air outlet, to realize the refrigerating/heating of indoor environment.Air duct 140 is configured to by upper air duct Wall and lower air duct wall limit.

Outer wind deflector 150 is rotatablely arranged on shell 110, is configured to open or close air outlet.Referring to Fig. 1, outside Wind deflector 150 may include outer plate body 151 and at least one first outer pivoted arm 152, and one end of at least one the first outer pivoted arm 152 connects It is connected to the medial surface position corresponding with internal air baffle 160 of outer plate body 151, the rotation axis connection of the other end and outer wind deflector 150.

In air conditioner refrigerating/heating operation, outer wind deflector 150 turn to open air outlet position so that heat exchange wind from Air outlet is blown out through the water conservancy diversion of outer plate body 151, the difference of outer 150 turned position of wind deflector, the air-out direction of adjusting air outlet And wind-out range；When air-conditioning does not work, outer wind deflector 150 turns to so that outer plate body 151 completely closes air outlet, to prevent Introduced contaminants enter air outlet, and make the shape of indoor unit 100 more beautiful.

When outer wind deflector 150 turns to closing air outlet, the top edge of outer plate body 151 is denoted as the first side of outer plate body 151 Edge, the lower edge of outer plate body 151 are denoted as the second edge of outer plate body 151.The medial surface of outer plate body 151 closes on the position of second edge Set the barrier rib (not shown) for being used to obstruct air-flow for being formed with the interior direction protrusion of outside plate body 151.In cooling mode, When outer plate body 151 participates in wind-guiding, cold wind is blocked muscle and blocks, and changes direction and keeps away so that cold wind is blown out forward along outer plate body 151 Exempt from cold wind to blow out backward, forms condensed water in the posterior edges of outer plate body 151.

As shown in Figure 1, 2, internal air baffle 160 is located at the inside of outer wind deflector 150, including is sequentially distributed in a lateral direction At least two inner plate sections 161.When closing air outlet, internal air baffle 160 should turn to the inside of outer wind deflector 150 completely, Air outlet is completely enclosed by the outer plate body 151 of outer wind deflector 150.The size of internal air baffle 160 should be less than outer plate body 151 Size, therefore, internal air baffle 160 be also referred to as small wind deflector, outer wind deflector 150 be referred to as big wind deflector.

The pivot center of the pivot center of inner plate section 161 and outer wind deflector 150 can be parallel to transverse direction.Inner plate section 161 pivot center should close on the upper edge of air outlet, and the pivot center of outer wind deflector 150 should close on the lower side of air outlet Edge.

Particularly, as shown in Figure 1, two adjacent inner plate sections 161 are spaced setting, and each two adjacent inner plate sections 161 clearance space is corresponding with a first outer pivoted arm 152, so as to utilize the clearance space of two adjacent inner plate sections 161 Avoiding space is provided for the first outer pivoted arm 152.

In the present embodiment, as shown in Figure 1, the first outer pivoted arm 152 is one, substantially positioned at outer 151 transverse direction of plate body Medium position.Inner plate section 161 is two, and the size of two inner plate sections 161 is roughly the same, the interval between two inner plate sections 161 It is corresponding with the first outer pivoted arm 152.

Outer wind deflector 150 further includes two the second outer pivoted arms 153, and the first end of two the second outer pivoted arms 153 is connected to outer 151 medial surface of plate body closes on the position of two ends in outer 151 transverse direction of plate body, and the second of two the second outer pivoted arms 153 The rotation axis connection at end and outer wind deflector 150, to drive outer wind deflector 150 to rotate by two the second outer pivoted arms 153.Outside first Pivoted arm 152 is located between two the second outer pivoted arms 153.

The length of 160 transverse direction of internal air baffle should be less than the length of outer 151 transverse direction of plate body, so that internal air baffle 160 form clearance space with two ends in air outlet transverse direction, are provided and are kept away with the rotation for two the second outer pivoted arms 153 Allow space.The rotation of the rotation and internal air baffle 160 that thereby guarantee that outer wind deflector 150 not will form interference.

Traditional outer wind deflector 150 generally only includes two pivoted arms positioned at outer 150 transverse ends of wind deflector, outer to guarantee The medial surface of the straightness of wind deflector 150, outer wind deflector 150 need to usually be covered with metal rectification plate, increase material use and Spray painting expense.And the air conditioner indoor unit 100 of the present embodiment, by be arranged between two the second outer pivoted arms 153 at least one One outer pivoted arm 152, eliminates the use of metal rectification plate, has saved material and spray painting expense.

Inner plate section 161 may include inner plate body and at least one cock arm 162, the first end of at least one cock arm 162 It is connect with inner plate body, second end extends to the inside of inner plate body, and the rotation axis connection with inner plate section 161, to pass through at least one A cock arm 162 drives inner plate body rotation.

The utility model in one embodiment, inner plate section 161 may include a cock arm 162, for keep in The stability of plate body rotation, the first end of cock arm 162 should be connected to the medium position of inner plate body.

In the present embodiment, as shown in Figure 1, 2, inner plate section 161 may include two cock arms 162, the of two cock arms 162 One end can be connected to the position that inner plate body closes on two ends of transverse direction.

The air conditioner indoor unit of the present embodiment may also include the motor (not shown) for driving inner plate section 161 to rotate, motor Can be two, two motors can be oppositely disposed in the both ends in 110 transverse direction of shell, the output shaft of two motors respectively with The cock arm 162 for closing on lateral ends of corresponding inner plate section 161 connects.

As shown in Fig. 2, the second end of the cock arm 162 on two inner plate sections 161 end close to each other is formed with transverse direction The outrigger shaft 162b that direction extends, the cock arm 162 that two inner plate sections 161 close on lateral ends are formed with the output shaft with motor The axis hole of cooperation.The output shaft of outrigger shaft 162b and motor can be collectively referred to as the rotation axis of inner plate section 161.

The air conditioner indoor unit of the present embodiment further includes the locating piece (not indicating) being set on shell 110, shape on locating piece At there is location hole, outrigger shaft 162b is extended in location hole, to guarantee the stable rotation of inner plate section 161.

In traditional scheme, the entire slewing area of internal air baffle 160 generally stretches out air duct all in air duct 140 or partially 140, the wind-guiding effect of internal air baffle 160 is not obvious, limited to the adjustment of air-out direction with the cooperation of outer wind deflector 150, can not It realizes well and blows on cold wind and blown under hot wind.

And in the air conditioner indoor unit 100 of the present embodiment, as shown in Fig. 2, inner plate section 161 be configured to can forward upward turn to The outside in air duct 140, also is understood as, and the inner plate body of inner plate section 161 turns to the outside in air duct 140.Thereby increase inner panel The slewing area of section 161 passes through internal air baffle 160 and outer wind deflector so that the wind-guiding effect of internal air baffle 160 is more obvious 150 cooperation can be achieved to blow on cold wind or it is flat blow and hot wind under blow.

Each cock arm 162 can be formed with the evacuation notch 162a for avoiding air outlet top edge, when inner plate section 161 to When front upper place turns to the outside in air duct 140, evacuation notch 162a can be abutted with the top edge of air outlet, so that inner plate section 161 It is preferably bonded with the top edge of air outlet, eliminates the gap of the front panel of inner plate section 161 and shell 110, reduction is leaked out, and is promoted The wind effect of internal air baffle 160.

For the slewing area for increasing inner plate section 161, realize that inner plate body forward upward turns to the outside in air duct 140, inner panel The pivot center of section 161 and the shortest distance of inner plate body should be greater than the pivot center of inner plate section 161 and the upper edge of air outlet Distance, also be understood as, cock arm 162 cross inner plate section 161 rotation axis a little to 162 first end of cock arm distance it is big In the pivot center of inner plate section 161 at a distance from the upper edge of air outlet.Thus can guarantee inner plate body can forward upward it is complete Turn to the outside in air duct 140.

It should be formed with clearance space between the pivot center and upper air duct wall of inner plate section 161, for example, inner plate section 161 turns The value range of the distance between shaft line and upper air duct wall can be 5 to 10 millimeters, to avoid upper air duct wall to inner plate section 161 Rotation forms interference.

Air-conditioning in a heating mode, as shown in Fig. 2, to be configured to rotated down backward interior to first position for outer wind deflector 150 Plate section 161 is configured to forward upward and turns to the second position, with by the cooperation of inner plate section 161 and outer wind deflector 150 to outlet air Front, front lower place or the lower section of mouth export hot wind.As shown in Fig. 2, wind can be fully located at by turning to the inner plate section 161 of the second position It outside road 140, is achieved under hot wind and is blown by the cooperation of inner plate section 161 and outer wind deflector 150, reduce the temperature point in room Layer, obtains better user experience.

The pivot center of inner plate section 161 and the shortest distance of inner plate body should be less than pivot center and the outlet air of inner plate section 161 The distance of mouth lower edge, also is understood as, and the rotation axis of inner plate section 161 excessively of cock arm 162 a little arrives cock arm 162 first The distance at end is less than the pivot center of inner plate section 161 at a distance from air outlet lower edge.Thus it can guarantee that inner plate body can be backward In rotated down to air duct 140.

Air-conditioning is in cooling mode, interior as shown in figure 3, outer wind deflector 150, which is configured to forward upward, turns to the third place Plate section 161 is configured to rotate back to the 4th position, with by the cooperation of inner plate section 161 and outer wind deflector 150 to air outlet Front, front lower place, front upper place or lower section export cold wind.As shown in figure 3, by the cooperation of inner plate section 161 and outer wind deflector 150 to The front upper place of air outlet is dried, and is realized and is blown on cold wind, and cold wind blow-through human body is avoided, and promotes air-conditioning comfort.

The inner plate body for turning to the 4th position is empty towards that should be formed with interval between the one side and lower air duct wall of lower air duct wall Between, for example, one side and the value range of lower air duct wall the distance between of the inner plate body in the 4th position towards lower air duct wall It is 5 to 8 millimeters.It thereby guarantees that under refrigeration mode, inner plate body is can turn in air duct 140, and avoids inner plate body and lower air duct wall Abut, the lower part of inner plate body do not have cold wind blowout, the upper and lower surfaces temperature difference of inner plate body and form condensation.

The air conditioner indoor unit 100 of the present embodiment, internal air baffle 160 includes at least two inner plate sections 161, in adjacent two The setting of the interval of plate section 161, and the clearance space of each two adjacent inner plate sections 161 is corresponding with a first outer pivoted arm 152, keeps away The interference for having exempted from the external wind deflector 150 of internal air baffle 160 ensure that outer wind deflector 150 rotates smooth.

Further, in the air conditioner indoor unit 100 of the present embodiment, outer wind deflector 150 includes two the second outer 153 Hes of pivoted arm At least one first outer pivoted arm 152 between two the second outer pivoted arms 153, improves the straightness of outer wind deflector 150, saves Material and spray painting expense have been saved in the use for having removed metal rectification plate.

Further, in the air conditioner indoor unit 100 of the present embodiment, inner plate section 161 can forward upward turn to air duct 140 Outside, increase the rotation amplitude of internal air baffle 160, improve internal air baffle 160 wind-guiding effect, pass through internal air baffle 160 and outer wind deflector 150 cooperation can be achieved to blow on cold wind or it is flat blow, reach cold wind and do not blow people, while can be realized under hot wind It blows, reduces the thermal stratification in room, obtain better user experience.

So far, although those skilled in the art will appreciate that the more of the utility model have been shown and described in detail herein A exemplary embodiment still, still can be according to the utility model public affairs in the case where not departing from the spirit and scope of the utility model The content opened directly determines or derives many other variations or modifications for meeting the utility model principle.Therefore, this is practical new The range of type is understood that and regards as to cover all such other variations or modifications.

Claims (10)

1. a kind of air conditioner indoor unit characterized by comprising

Shell, lower front define the air outlet extended in transverse direction；

Outer wind deflector is rotatably set on the shell, is configured to open or close the air outlet, and the outer wind deflector Pivot center close on the lower edge of the air outlet；

Internal air baffle, positioned at the inside of the outer wind deflector, including at least two inner plate sections being sequentially distributed in a lateral direction, Each inner plate section can be rotatably set, and the pivot center of the inner plate section closes on the upper edge of the air outlet；

The outer wind deflector includes outer plate body and at least one first outer pivoted arm, and one end of at least one first outer pivoted arm connects It is connected to the medial surface position corresponding with the internal air baffle of the outer plate body, the rotation axis company of the other end and the outer wind deflector It connects, to drive the outer plate body rotation by least one described first outer pivoted arm；

The inner plate section interval setting of adjacent two, and the clearance space of each two adjacent inner plate sections and an institute It is corresponding to state the first outer pivoted arm, provides avoiding space with the rotation for the described first outer pivoted arm.

2. air conditioner indoor unit according to claim 1, it is characterised in that

The outer wind deflector further includes two the second outer pivoted arms, and the first end of described two second outer pivoted arms is connected to described The medial surface of outer plate body closes on the position of two ends in the outer plate body transverse direction, and the of described two second outer pivoted arms The two ends rotation axis connection with the outer wind deflector respectively；

At least one described first outer pivoted arm is between the described two second outer pivoted arms；

The length of the internal air baffle transverse direction is less than the length of the transverse direction of the outer plate body, so that the interior wind-guiding Two ends on plate and the air outlet transverse direction form clearance space, are mentioned with the rotation for the described two second outer pivoted arms For avoiding space.

3. air conditioner indoor unit according to claim 1, it is characterised in that

The first outer pivoted arm is one；

The internal air baffle includes two inner plate sections.

4. air conditioner indoor unit according to claim 1, it is characterised in that

When the outer wind deflector turns to the closing air outlet, the top edge of the outer plate body is denoted as the first of the outer plate body Edge, the lower edge of the outer plate body are denoted as the second edge of the outer plate body；

The position that the medial surface of the outer plate body closes on the second edge forms the interior direction protrusion of the oriented outer plate body For obstructing the barrier rib of air-flow.

5. air conditioner indoor unit according to claim 1, it is characterised in that further include:

Air duct is set to the enclosure interior, is connected to the air outlet, for leading the air inside the air conditioner indoor unit To the air outlet；

The inner plate section is configured to the outside that forward upward can turn to the air duct.

6. air conditioner indoor unit according to claim 5, it is characterised in that

Each inner plate section includes inner plate body and at least one cock arm；

The first end of at least one cock arm is connected on the inner plate body, the second end of at least one cock arm with The rotation axis connection of the inner plate section, to drive the inner plate body rotation by least one described cock arm.

7. air conditioner indoor unit according to claim 6, it is characterised in that

The shortest distance of the pivot center of the inner plate section and the inner plate body be greater than the pivot center of the inner plate section with it is described The distance of air outlet upper edge, to guarantee under heating mode, each inner plate body can forward upward turn to the wind The outside in road.

8. air conditioner indoor unit according to claim 6, it is characterised in that

The shortest distance of the pivot center of the inner plate section and the inner plate body be less than the pivot center of the inner plate section with it is described The distance of air outlet lower edge, to guarantee under refrigeration mode, each inner plate body can rotate in the air duct.

9. air conditioner indoor unit according to claim 6, it is characterised in that

In cooling mode, the outer wind deflector is configured to forward upward and turns to the third place, and each inner plate section is matched It is set to and rotates back to the 4th position, to export cold wind to the front of the air outlet, front lower place, front upper place or lower section；

The air duct is configured to be limited by upper air duct wall and lower air duct wall；

Turn to each of the 4th position inner plate body towards the lower air duct wall one side and the lower air duct wall it Between be formed with clearance space, to guarantee under refrigeration mode, cold wind blowout is arranged at the lower part and top of each inner plate body, to keep away Exempt to form condensation on the inner plate body.

10. air conditioner indoor unit according to claim 6, it is characterised in that

Each inner plate section includes two cock arms；

Two cock arms that each inner plate section includes are connected to the inner plate body transverse direction of the inner plate section On two ends.